CN108865403B - Tuna leftover enzymolysis equipment - Google Patents

Abstract

The invention relates to the technical field of tuna leftover processing, in particular to tuna leftover enzymolysis equipment which comprises a base, wherein the top of the base is fixedly connected with a precipitation separation mechanism, the top of the precipitation separation mechanism is fixedly connected with a material quality change mechanism, one side of the top of the base, which is far away from the precipitation separation mechanism, is fixedly connected with a rack, the side surface of the precipitation separation mechanism is fixedly communicated with the precipitation separation mechanism through a water pump, one end of the water pump, which is far away from the water pump, is fixedly connected with a material guide pipe, and one end of the material guide pipe, which is far away from the water pump, is fixedly connected with a material precipitation collection mechanism. The paint is suitable for fish oil preparation of tuna leftovers, is convenient for oil-water separation, and can be used for collecting fish oil after the inside of an oil secondary enzymolysis tank is moved out, so that fish oil precipitation caused by direct collection of the fish oil in the secondary enzymolysis tank is prevented, the efficiency of fish oil collection is prevented from being influenced, and the efficiency of fish oil collection is increased.

Description

Tuna leftover enzymolysis equipment

Technical Field

The invention relates to the technical field of tuna leftover processing, in particular to tuna leftover enzymolysis equipment.

Background

Tuna is a food loved by people, the fish meat of the tuna can be eaten with thorny, the leftovers of the tuna can also be processed into immobilized lipase and fish oil, the method for preparing the tuna leftovers comprises the steps of cleaning, crushing, mixing lipase immobilization, primary enzymolysis, secondary enzymolysis and oil-water separation of the cut tuna leftovers, but the fish oil and water are separated in the conventional mode that the fish oil is manually excavated from the inside of a collecting box, so that the damage of the fish oil is easily caused, and the fish oil is deposited at the bottom of an enzymolysis tank and is not convenient for collecting the fish oil.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides tuna leftover enzymolysis equipment, which solves the problems that fish oil is easily damaged due to the fact that fish oil is manually dug out of a collecting box, and the fish oil is deposited at the bottom of an enzymolysis tank and is inconvenient to collect.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a tuna leftover bits enzymolysis equipment, includes the base, the top fixedly connected with of base deposits separating mechanism, the top fixedly connected with material quality change mechanism that deposits separating mechanism, one side fixedly connected with frame that deposits separating mechanism was kept away from at the base top.

Deposit separating mechanism's side fixedly connected with drinking-water pipe, the one end fixedly connected with suction pump that separating mechanism was kept away from to the drinking-water pipe, the bottom fixed connection of suction pump is at the top of backup pad, the side of backup pad and the side fixed connection who deposits separating mechanism, the one end fixedly connected with passage of drinking-water pipe is kept away from to the suction pump, the one end fixedly connected with material sediment that the suction pump was kept away from to the passage is collected on the mechanism.

Preferably, material sedimentation separating mechanism is including an enzymolysis tank, the bottom welding of an enzymolysis tank is at the top of base, the middle part fixed connection of conduction pipe and material matter change mechanism bottom is passed through at the top of an enzymolysis tank, the bottom fixedly connected with water conservancy diversion piece of an enzymolysis tank inner chamber, the top fixedly connected with filter screen of water conservancy diversion piece, the top of filter screen and the side fixed connection of an enzymolysis tank inner chamber, the side of an enzymolysis tank and the fixed connection of drinking-water pipe, the drinking-water pipe is located the top of water conservancy diversion piece, the bottom fixedly connected with discharging pipe of drinking-water pipe one side is kept away from to an enzymolysis tank, the first stop valve of fixedly connected with on the discharging pipe, fixedly connected with second stop valve on the conduction pipe.

Preferably, material quality change mechanism includes the blending tank, the bottom of blending tank and the top fixed connection of an enzymolysis tank, the bottom of blending tank and the top fixed connection of conduction pipe, the top of blending tank runs through and has first rotation pole through bearing swing joint, the top of first rotation pole and the output shaft swing joint of first rotating electrical machines, the first mount of the fixed surface of first rotating electrical machines, the bottom of first mount and the top fixed connection of blending tank, the top fixedly connected with inlet pipe of blending tank side, first rotation pole is located the first stirring leaf of one end fixedly connected with of blending tank inner chamber.

Preferably, the material precipitation collecting mechanism comprises a secondary enzymolysis tank, the bottom of the secondary enzymolysis tank is fixedly connected with the top of the base, the top of the side surface of the secondary enzymolysis tank is fixedly connected with the material guide pipe, the top of the secondary enzymolysis tank is movably connected with a sealing plate, the middle part of the sealing plate penetrates through and is movably connected with a second rotating rod through a bearing, the top of the second rotating rod is fixedly connected with an output shaft of a second rotating motor, a second stirring blade is fixedly connected to the outer surface of the second rotating rod, which is positioned at one end of the inner cavity of the secondary enzymolysis tank, the bottom of the second rotating rod is movably connected with a connecting plate through a bearing, the bottom of the connecting plate is fixedly connected with the bottom of the inner cavity of the collecting filter hopper, a second fixing frame is fixedly connected to the outer surface of the second rotating motor, and the bottom of the second fixing frame is fixedly connected with the top of the sealing plate, the middle part fixedly connected with eduction tube of secondary enzymolysis tank bottom, fixedly connected with third stop valve on the eduction tube.

Preferably, the side fixedly connected with link at closing plate top, the top welding of link has the movable block, the inside difference swing joint of movable block has first lifter and second lifter, the top difference swing joint of first lifter and second lifter has first thread bush and second thread bush, the inside of first thread bush and second thread bush all runs through and threaded connection has the threaded rod, bearing swing joint has the fixed block is passed through to the one end of threaded rod, the side of fixed block and the top fixed connection of blending tank side, the one end that fixed is fast is kept away from to the threaded rod runs through the top of frame side and passes through bearing and frame swing joint, the one end that the fixed block was kept away from to the threaded rod and the output shaft fixed connection of the fast rotating electrical machines at the end.

Preferably, the top of first thread bush and second thread bush all passes through slide rail and roof swing joint, the one end of roof and the top fixed connection of blending tank side, the roof bottom is close to one side of blending tank and the top fixed connection of fixed block, the roof is close to one side of frame and the top fixed connection of frame side.

Preferably, the first threaded sleeve and the second threaded sleeve have the same structure, the inner threads of the first threaded sleeve and the second threaded sleeve are opposite in direction, and sliding grooves matched with the sliding rails are formed in the tops of the first threaded sleeve and the second threaded sleeve.

(III) advantageous effects

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

(1) the paint is suitable for fish oil preparation of tuna leftovers, oil and water can be conveniently separated, fish oil is collected after the inside of the oil secondary enzymolysis tank is moved out, fish oil precipitation caused by direct collection of the fish oil in the secondary enzymolysis tank is prevented, the efficiency of fish oil collection is prevented from being influenced, and the efficiency of fish oil collection is increased.

(2) The tuna leftovers are respectively subjected to mixing, primary enzymolysis, secondary enzymolysis and fish oil separation in the same equipment, so that the transfer of materials in each process is facilitated, the production cost is reduced, the production efficiency is improved, the efficiency of collecting the fish oil is improved compared with manual operation, and the fish oil is prevented from sinking.

(3) The fish oil filter adopts the second rotating rod to drive the collecting filter hopper to ascend, so that the collecting filter hopper ascends to filter the fish oil and water, and the fish oil is precipitated into solid and cannot flow out of the collecting filter hopper, so that the oil and water are conveniently separated.

(4) According to the invention, the first rotating motor is adopted to drive the first rotating rod to rotate, so that the first stirring blade can fully mix the crushed leftovers and the enzymatic hydrolysate, immobilized lipase can be conveniently prepared, and the mixed materials can be conveniently guided into the primary enzymolysis tank through the conduction pipe for enzymolysis and precipitation.

(5) The primary enzymolysis tank is adopted to facilitate precipitation separation of immobilized lipase and enzymatic hydrolysate, redundant enzymatic hydrolysate can be pumped out from the primary enzymolysis tank through a water suction pump and is led into the secondary enzymolysis tank to be fully mixed and precipitated, the immobilized lipase and the enzymatic hydrolysate are conveniently separated through a filter screen, a water suction pipe is convenient to pump, the immobilized lipase is prevented from entering the water suction pipe through the water suction pipe to influence the pumping of the water suction pipe on the enzymatic hydrolysate, the immobilized lipase is conveniently led out of the primary enzymolysis tank through a discharge pipe, and the immobilized lipase is collected.

(6) According to the invention, the second rotating motor is adopted to drive the second rotating rod to rotate, so that the second stirring blade rotates to fully stir the enzymatic hydrolysate introduced into the secondary enzymolysis tank, the oil and water in the enzymatic hydrolysate are conveniently separated under the action of centrifugal force, and the oil and water can be separated through precipitation.

(7) According to the fish oil filter, the low-speed rotating motor is adopted to drive the threaded rod to rotate, so that the first threaded sleeve and the second threaded sleeve drive the first lifting rod and the second lifting rod to ascend, the collecting filter hopper ascends to separate and filter oil and water, and the collection of precipitated fish oil is facilitated.

(8) The invention adopts the flow guide block to guide the immobilized lipase conveniently, and the immobilized lipase is led out conveniently through the discharge pipe.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the material deposition and collection mechanism of FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of the collection hopper of FIG. 2 according to the present invention;

fig. 4 is a schematic side view of the first thread bushing of fig. 1 according to the present invention.

In the figure: 1 a base, 2 a precipitation separation mechanism, a 201 primary enzymolysis tank, 202 a diversion block, 203 a filter screen, 204 a discharge pipe, 205 a first stop valve, 206 a conduction pipe, 207 a second stop valve, 3 a material quality change mechanism, 301 a mixing tank, 302 a first rotating rod, 303 a first stirring blade, 304 a feed pipe, 305 a first rotating motor, 306 a first fixing frame, 4 a water suction pipe, 5 a support plate, 6 a water suction pump, 7 a guide pipe, 8 a machine frame, 9 a material precipitation collection mechanism, 901 secondary enzymolysis tank, 902 second rotating rod, 903 second rotating motor, 904 second fixed mount, 905 sealing plate, 906 second stirring blade, 907 connecting plate, 908 collecting filter funnel, 909 leading-out pipe, 910 third stop valve, 911 connecting frame, 912 movable block, 913 first lifting rod, 914 second lifting rod, 915 first thread bush, 916 second thread bush, 917 threaded rod, 918 fixed block, 919 top plate, 920 slide rail, 921 low-speed rotating motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an enzymolysis device for tuna leftovers comprises a base 1, a precipitation separation mechanism 2 is fixedly connected to the top of the base 1, the material precipitation separation mechanism 2 comprises a primary enzymolysis tank 201, the bottom of the primary enzymolysis tank 201 is welded to the top of the base 1, the top of the primary enzymolysis tank 201 is fixedly connected with the middle of the bottom of a material quality change mechanism 3 through a conduction pipe 206, a flow guide block 202 is fixedly connected to the bottom of an inner cavity of the primary enzymolysis tank 201, the flow guide block 202 is adopted to guide immobilized lipase conveniently, the immobilized lipase is guided out through a discharge pipe 204, a filter screen 203 is fixedly connected to the top of the flow guide block 202, the top of the filter screen 203 is fixedly connected with the side of the inner cavity of the primary enzymolysis tank 201, the side of the primary enzymolysis tank 201 is fixedly connected with a water pumping pipe 4, the water pumping pipe 4 is positioned above the flow guide block 202, the bottom of the primary enzymolysis tank 201 far away from the water pumping pipe 4 is fixedly connected with the discharge pipe 204, the utility model discloses a fixed connection has first stop valve 205 on discharging pipe 204, fixedly connected with second stop valve 207 on conduction pipe 206, it is convenient to deposit the separation to immobilized lipase and enzymolysis liquid to have adopted once enzymolysis tank 201, unnecessary enzymolysis liquid can be taken out enzymolysis liquid from the inside of once enzymolysis tank 201 through suction pump 6, the inside of leading-in secondary enzymolysis tank 901 carries out abundant mixed precipitation, conveniently separate immobilized lipase and enzymolysis liquid through filter screen 203, the extraction of drinking-water pipe 4 has been made things convenient for, prevent that drinking-water pipe 4 from getting into the extraction of inside influence drinking-water pipe 4 to the enzymolysis liquid of immobilized lipase, conveniently derive enzymolysis tank 201 with immobilized lipase through discharging pipe 204, collect immobilized lipase.

The top of the precipitation separation mechanism 2 is fixedly connected with a material quality change mechanism 3, the material quality change mechanism 3 comprises a mixing tank 301, the bottom of the mixing tank 301 is fixedly connected with the top of the primary enzymolysis tank 201, the bottom of the mixing tank 301 is fixedly connected with the top of the conduction pipe 206, the top of the mixing tank 301 penetrates through and is movably connected with a first rotating rod 302 through a bearing, the top of the first rotating rod 302 is movably connected with an output shaft of a first rotating motor 305, the outer surface of the first rotating motor 305 is fixedly connected with a first fixing frame 306, the bottom of the first fixing frame 306 is fixedly connected with the top of the mixing tank 301, the top of the side surface of the mixing tank 301 is fixedly connected with a feeding pipe 304, one end of the first rotating rod 302, which is positioned in the inner cavity of the mixing tank 301, is fixedly connected with a first stirring blade 303, and the first rotating motor 305 is adopted to drive the first rotating rod 302 to rotate so that the first stirring blade 303 can fully mix crushed leftovers and enzymolysis liquid, immobilized lipase is conveniently prepared, and the mixed materials are conveniently introduced into the primary enzymolysis tank 201 through the conduction pipe 206 for enzymolysis and precipitation.

One side fixedly connected with frame 8 of sedimentation and separation mechanism 2 is kept away from at base 1 top, sedimentation and separation mechanism 2's side fixedly connected with drinking-water pipe 4, the one end fixedly connected with suction pump 6 of sedimentation and separation mechanism 2 is kept away from to drinking-water pipe 4, the bottom fixed connection of suction pump 6 is at the top of backup pad 5, the side of backup pad 5 and sedimentation and separation mechanism 2's side fixed connection, the one end fixedly connected with passage 7 of suction pipe 4 is kept away from to suction pump 6, the one end fixedly connected with material sediment collection mechanism 9 of suction pump 6 is kept away from to passage 7.

The material sediment collecting mechanism 9 comprises a secondary enzymolysis tank 901, the bottom of the secondary enzymolysis tank 901 is fixedly connected with the top of the base 1, the top of the side surface of the secondary enzymolysis tank 901 is fixedly connected with a material guide pipe 7, the top of the secondary enzymolysis tank 901 is movably connected with a sealing plate 905, the middle part of the sealing plate 905 penetrates through and is movably connected with a second rotating rod 902 through a bearing, the top of the second rotating rod 902 is fixedly connected with an output shaft of a second rotating motor 903, the outer surface of the second rotating rod 902, which is positioned at one end of the inner cavity of the secondary enzymolysis tank 901, is fixedly connected with a second stirring blade 906, the bottom of the second rotating rod 902 is movably connected with a connecting plate 907 through a bearing, the bottom of the connecting plate 907 is fixedly connected with the bottom of the inner cavity of the collecting filter hopper 908, the second rotating rod 902 is adopted to drive the collecting filter hopper 908 to ascend, so that the collecting filter hopper 908 ascends to filter fish oil and water, because the fish oil is already precipitated into solid, therefore, the oil and water can not flow out of the collecting filter 908, and the oil and water can be conveniently separated.

Outer fixed surface of second rotating electrical machines 903 is connected with second mount 904, the bottom of second mount 904 and the top fixed connection of closing plate 905, the middle part fixedly connected with delivery tube 909 of secondary enzymolysis tank 901 bottom, fixedly connected with third stop valve 910 on the delivery tube 909, adopted second rotating electrical machines 903 to drive second dwang 902 and rotated and made second stirring leaf 906 rotate and carry out abundant stirring to the inside enzymolysis liquid of leading-in secondary enzymolysis tank 901, made things convenient for the profit in the enzymolysis liquid to separate under the effect of centrifugal force, can separate the profit through deposiing.

Side fixedly connected with link 911 at closing plate 905 top, the top welding of link 911 has movable block 912, the inside swing joint respectively of movable block 912 has first lifter 913 and second lifter 914, the top swing joint respectively of first lifter 913 and second lifter 914 has first thread bush 915 and second thread bush 916, the inside of first thread bush 915 and second thread bush 916 all runs through and threaded connection has threaded rod 917, bearing swing joint has fixed block 918 is passed through to the one end of threaded rod 917, the side of fixed block 918 and the top fixed connection of blending tank 301 side, the one end that fixed fast 918 was kept away from to threaded rod 917 runs through the top of frame 8 side and passes through bearing and frame 8 swing joint, threaded rod 917 keeps away from the one end of fixed block 918 and the output shaft fixed connection of bottom-speed rotating electrical machines 921.

The tops of the first threaded sleeve 915 and the second threaded sleeve 916 are movably connected with a top plate 919 through a sliding rail 920, one end of the top plate 919 is fixedly connected with the top of the side face of the mixing tank 301, one side, close to the mixing tank 919, of the bottom of the top plate 919 is fixedly connected with the top of a fixing block 918, and one side, close to the rack 8, of the top plate 919 is fixedly connected with the top of the side face of the rack 8.

First thread bush 915 and second thread bush 916 are the same in structure, the opposite direction that first thread bush 915 and the inside screw thread of second thread bush 916 were seted up, the spout with slide rail 920 looks adaptation has all been seted up at the top of first thread bush 915 and second thread bush 916, adopted low-speed rotating electrical machines 921 drive threaded rod 917 to rotate and make first thread bush 915 and second thread bush 916 drive first lifter 913 and second lifter 914 rise, make collection hopper 908 rise and separate the filtration to the profit, made things convenient for the fish oil after deposiing to collect.

The paint is suitable for fish oil preparation of tuna leftovers, is convenient for oil-water separation, and can be used for collecting fish oil after the inside of the oil secondary enzymolysis tank 901 is moved out, so that fish oil precipitation caused by direct collection of the fish oil in the secondary enzymolysis tank 901 is prevented, the efficiency of fish oil collection is prevented from being influenced, and the efficiency of fish oil collection is increased.

The invention adopts the same equipment to respectively carry out mixing, primary enzymolysis, secondary enzymolysis and fish oil separation on the tuna leftovers, thereby facilitating the transfer of materials in each process, reducing the production cost, increasing the production efficiency, increasing the efficiency of collecting the fish oil compared with manual operation and preventing the fish oil from sinking.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

The working principle is as follows: when tuna leftovers are processed, the tuna leftovers are cleaned, then the tuna leftovers are put into a crusher to be crushed, the crushed tuna leftovers are led into the mixing tank 301 through a feed pipe 304, then a proper amount of polymethyl acrylate carrier is added to immobilize candida cylindracea lipase, a first stirring rod 302 is driven by a first rotating motor 305 to rotate so that a first stirring blade 303 fully mixes the tuna leftovers and the polymethyl acrylate carrier to obtain immobilized lipase, a second stop valve 207 is opened to lead the immobilized lipase into the primary enzymolysis tank 201 through a conduction pipe 206 for precipitation, the precipitated immobilized lipase generates a certain amount of enzymolysis liquid, a water pump 6 is opened to lead a water pumping pipe 4 to extract the enzymolysis liquid filtered by a filter screen 203, and the enzymolysis liquid is led into the secondary enzymolysis tank 901 through a water guiding pipe 7, the first stop valve 205 is opened to introduce the drained immobilized lipase into the discharge pipe 204 and discharge the immobilized lipase out of the primary enzymolysis tank 201, and the immobilized lipase is collected.

The second rotating motor 903 is controlled to drive the second rotating rod 902 to rotate, so that the second stirring blade 906 rotates, the enzymolysis liquid is stirred and mixed, so that oil and water in the enzymolysis liquid can be conveniently separated under the action of centrifugal force, the oil and water can be separated through precipitation, after the precipitation is carried out for a period of time, the low-speed rotating motor 921 is controlled to drive the threaded rod 917 to rotate, so that the first thread bush 915 and the second thread bush 916 move to the two sides of the threaded rod 917, the first lifting rod 913 and the second lifting rod 914 are driven to deflect to the two sides of the threaded rod 917, the connecting frame 911 is driven to ascend, the sealing plate 905 drives the second rotating rod 902 to ascend, the collecting filter hopper 908 is driven to ascend, the oil and water are separated, the solidified fish oil is taken out of the secondary enzymolysis tank 901, the fish oil in the collecting filter 908 can be collected manually, and the separated water can be led out of the secondary enzymolysis tank 901 through the lead-out pipe 909 by opening the third stop valve 910.

In summary, the following steps: the paint is suitable for fish oil preparation of tuna leftovers, is convenient for oil-water separation, and can be used for collecting fish oil after the inside of the oil secondary enzymolysis tank 901 is moved out, so that fish oil precipitation caused by direct collection of the fish oil in the secondary enzymolysis tank 901 is prevented, the efficiency of fish oil collection is prevented from being influenced, and the efficiency of fish oil collection is increased.

The tuna leftovers are respectively mixed, subjected to primary enzymolysis, subjected to secondary enzymolysis and separated from the fish oil in the same equipment, so that the transfer of materials in each process is facilitated, the production cost is reduced, the production efficiency is improved, the efficiency of collecting the fish oil is improved compared with manual operation, and the fish oil is prevented from sinking.

The second rotating rod 902 is adopted to drive the collecting filter 908 to ascend, so that the collecting filter 908 ascends to filter fish oil and water, and the fish oil is precipitated into solid, so that the fish oil cannot flow out of the collecting filter 908, and the oil and water are conveniently separated.

Adopted first rotating electrical machines 305 to drive first rotating rod 302 and rotated and made first stirring leaf 303 to the leftover bits and pieces after smashing and carry out the intensive mixing to the enzymolysis liquid, conveniently prepared into immobilized lipase, the inside of leading-in enzymolysis tank 201 of material after conveniently mixing carries out the enzymolysis through conduction pipe 206 and deposits.

It is convenient to carry out the precipitation separation to immobilized lipase and enzymolysis liquid to have adopted once enzymolysis tank 201, unnecessary enzymolysis liquid can be taken out the enzymolysis liquid from the inside of once enzymolysis tank 201 through suction pump 6, the inside of leading-in secondary enzymolysis tank 901 carries out abundant mixed sediment, conveniently separate immobilized lipase and enzymolysis liquid through filter screen 203, the extraction of drinking-water pipe 4 has been made things convenient for, prevent that drinking-water pipe 4 from getting into the extraction of drinking-water pipe 4 to the enzymolysis liquid with immobilized lipase, conveniently derive one enzymolysis tank 201 with immobilized lipase through discharging pipe 204, collect immobilized lipase.

Adopted second rotating electrical machines 903 to drive second dwang 902 and rotated and made second stirring leaf 906 rotate and carry out abundant stirring to the inside enzymolysis liquid of leading-in secondary enzymolysis tank 901, made things convenient for the profit in the enzymolysis liquid to separate under the effect of centrifugal force, can separate profit through deposiing.

The low-speed rotating motor 921 is adopted to drive the threaded rod 917 to rotate so that the first thread bush 915 and the second thread bush 916 drive the first lifting rod 913 and the second lifting rod 914 to rise, so that the collecting filter 908 rises to separate and filter oil and water, and the collection of the precipitated fish oil is facilitated.

The flow guide block 202 is adopted to guide the immobilized lipase conveniently, and the immobilized lipase is led out through the discharge pipe 204 conveniently.

The tuna leftover enzymolysis equipment provided by the invention is described in detail above. The principles and embodiments of the present invention have been explained by applying specific examples, and the above descriptions of the embodiments are only used to help understanding the method and the core idea of the present invention. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (4)

1. The utility model provides a tuna leftover bits and pieces enzymolysis equipment, includes base (1), its characterized in that: the top of the base (1) is fixedly connected with a precipitation separation mechanism (2), the top of the precipitation separation mechanism (2) is fixedly connected with a material quality change mechanism (3), and one side of the top of the base (1) far away from the precipitation separation mechanism (2) is fixedly connected with a rack (8); the side face of the precipitation separation mechanism (2) is fixedly connected with a water suction pipe (4), one end, far away from the precipitation separation mechanism (2), of the water suction pipe (4) is fixedly connected with a water suction pump (6), the bottom of the water suction pump (6) is fixedly connected to the top of a supporting plate (5), the side face of the supporting plate (5) is fixedly connected with the side face of the precipitation separation mechanism (2), one end, far away from the water suction pipe (4), of the water suction pump (6) is fixedly connected with a material guide pipe (7), and one end, far away from the water suction pump (6), of the material guide pipe (7) is fixedly connected with a material precipitation collection mechanism (9);

the material precipitation separation mechanism (2) comprises an enzymolysis tank (201), the bottom of the enzymolysis tank (201) is welded at the top of the base (1), the top of the enzymolysis tank (201) is connected with the middle part of the bottom of the material quality change mechanism (3) through a conduction pipe (206), the bottom of the inner cavity of the enzymolysis tank (201) is fixedly connected with a diversion block (202), the top of the diversion block (202) is fixedly connected with a filter screen (203), the top of the filter screen (203) is fixedly connected with the side of the inner cavity of the enzymolysis tank (201), the side of the enzymolysis tank (201) is fixedly connected with a water pumping pipe (4), the water pumping pipe (4) is positioned above the diversion block (202), the bottom of the enzymolysis tank (201) far away from one side of the water pumping pipe (4) is fixedly connected with a discharge pipe (204), and a first stop valve (205) is fixedly connected with the discharge pipe (204), a second stop valve (207) is fixedly connected to the conduction pipe (206);

the material quality change mechanism (3) comprises a mixing tank (301), the bottom of the mixing tank (301) is fixedly connected with the top of the primary enzymolysis tank (201), the bottom of the mixing tank (301) is fixedly connected with the top of the conduction pipe (206), the top of the mixing tank (301) penetrates through and is movably connected with a first rotating rod (302) through a bearing, the top of the first rotating rod (302) is movably connected with the output shaft of a first rotating motor (305), a first fixing frame (306) is fixedly connected to the outer surface of the first rotating motor (305), the bottom of the first fixing frame (306) is fixedly connected with the top of the mixing tank (301), the top of the side surface of the mixing tank (301) is fixedly connected with a feeding pipe (304), one end of the first rotating rod (302) positioned in the inner cavity of the mixing tank (301) is fixedly connected with a first stirring blade (303);

the material sediment collecting mechanism (9) comprises a secondary enzymolysis tank (901), the bottom of the secondary enzymolysis tank (901) is fixedly connected with the top of the base (1), the top of the side surface of the secondary enzymolysis tank (901) is fixedly connected with the material guide pipe (7), the top of the secondary enzymolysis tank (901) is movably connected with a sealing plate (905), the middle part of the sealing plate (905) penetrates through and is movably connected with a second rotating rod (902) through a bearing, the top of the second rotating rod (902) is fixedly connected with an output shaft of a second rotating motor (903), the outer surface of one end, located at the inner cavity of the secondary enzymolysis tank (901), of the second rotating rod (902) is fixedly connected with a second stirring blade (906), the bottom of the second rotating rod (902) is movably connected with a connecting plate (907) through a bearing, and the bottom of the connecting plate (907) is fixedly connected with the bottom of the inner cavity of the collecting filter hopper (908), the outer surface of the second rotating motor (903) is fixedly connected with a second fixing frame (904), the bottom of the second fixing frame (904) is fixedly connected with the top of the sealing plate (905), the middle of the bottom of the secondary enzymolysis tank (901) is fixedly connected with a delivery pipe (909), and a third stop valve (910) is fixedly connected to the delivery pipe (909).

2. The tuna leftover enzymatic hydrolysis device according to claim 1, which is characterized in that: the side face of the top of the sealing plate (905) is fixedly connected with a connecting frame (911), a movable block (912) is welded at the top of the connecting frame (911), the inside of the movable block (912) is respectively and movably connected with a first lifting rod (913) and a second lifting rod (914), the tops of the first lifting rod (913) and the second lifting rod (914) are respectively and movably connected with a first thread bush (915) and a second thread bush (916), the insides of the first thread bush (915) and the second thread bush (916) are respectively and rotatably connected with a threaded rod (917), one end of the threaded rod (917) is movably connected with a fixed block (918) through a bearing, the side face of the fixed block (918) is fixedly connected with the top of the side face of the mixing tank (301), one end, far away from the fixed block (918), of the threaded rod (917) penetrates through the top of the side face of the rack (8) and is movably connected with the rack (8) through a bearing, and one end of the threaded rod (917), which is far away from the fixed block (918), is fixedly connected with an output shaft of the low-speed rotating motor (921).

3. The tuna leftover enzymatic hydrolysis device according to claim 2, which is characterized in that: the top of each of the first threaded sleeve (915) and the second threaded sleeve (916) is movably connected with a top plate (919) through a sliding rail (920), one end of each top plate (919) is fixedly connected with the top of the side face of the mixing tank (301), one side, close to the mixing tank (919), of the bottom of each top plate (919) is fixedly connected with the top of a fixing block (918), and one side, close to the rack (8), of each top plate (919) is fixedly connected with the top of the side face of the rack (8).

4. The tuna leftover enzymatic hydrolysis device according to claim 3, which is characterized in that: the structure of the first threaded sleeve (915) is the same as that of the second threaded sleeve (916), the internal threads of the first threaded sleeve (915) and the second threaded sleeve (916) are opposite in direction, and sliding grooves matched with the sliding rails (920) are formed in the tops of the first threaded sleeve (915) and the second threaded sleeve (916).

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